Abstract
Taking velocitydirectional measure and dynamic directional measure as the jumping performance evaluation indexes, the improvement of jumping performance of the jumping robot is pursued in the point view of mechanism design. On the basis of the jumping robot mechanism model, the kinematic and dynamic equations in take-off phase are established, and the velocity mapping relationship from the joint space to the centroid movement space and the acceleration mapping relationship from the joint driving torque space to the centroid acceleration space are obtained. In order to improve the robot’s jumping performance, velocitydirectional measure and dynamic directional measure combining with the optimal algorithm are used to optimize the mechanism parameters of the jumping robot. Through the calculation of example, the optimal results show that the study on the mechanism parameters optimal design of the jumping robot is feasible by introducing the theory of velocity directional measure and dynamic directional measure.
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References
Niiyama, R., Nagakubo, A., Kuniyoshi, Y.: Mowgli: A Bipedal Jumping and Landing Robot with an Artificial Musculoskeletal System. In: International Conference on Robotics and Automation, pp. 2546–2551. IEEE Press, Piscataway (2007)
Gao, H.: Dynamic Optimization and Design of One-legged Hopping Robot with Biologically Mimic Kangaroo, pp. 25–35. College of Mechanical and Electrical Engineering, North China University of Technology, Beijing (2008) (in Chinese)
Zhang, Q.: Research on the Locomotion Characteristics of the Jumping Behavior for the Bionic Cricket Robot, pp. 37–47. School of Mechanical Engineering, Jiang Nan University, Wuxi (2009) (in Chinese)
Wang, M., Zang, X., Fan, J., et al.: Meng Wang, Xizhe Zang, Jizhuang Fan, et al: Biological Jumping Mechanism Analysis and Modeling for Frog Robot. Journal of Bionic Engineering 5(3), 181–188 (2008)
Xu, Z., Lv, T., Wang, X., et al.: Motion Optimization for Jumping Robot Based on Inertia Matching Manipulability. Journal of Shang Hai Jiao Tong University 42(7), 1154–1158 (2007) (in Chinese)
Yamakita, M., Omagari, Y., Taniguchi, Y.: Jumping Cat Robot with Kicking a Wall. Journal of the Robotics Society of Japan 9, 934–938 (1994)
Yao, J., Ding, X., Zhan, Q., et al.: On Task-based Directional Manipulability Measure of Redundant Robot. Robot. 22(6), 501–505 (2000) (in Chinese)
Chen, G., Yang, A.: Direction-oriented Manipulability Measures of Dual-arm Robots. Robot. 18(2), 108–114 (1996) (in Chinese)
Yoshikawa, T.: Dynamic Manipulability of Robot Manipulators. International Journal of Robotics Research 4, 3–9 (1985)
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Yang, Q. (2013). Optimal Design of the Jumping Robot Based on Velocity Directional Manipulability and Dynamic Directional Manipulability. In: Tan, G., Yeo, G.K., Turner, S.J., Teo, Y.M. (eds) AsiaSim 2013. AsiaSim 2013. Communications in Computer and Information Science, vol 402. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-45037-2_25
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DOI: https://doi.org/10.1007/978-3-642-45037-2_25
Publisher Name: Springer, Berlin, Heidelberg
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